Traumatic Brain Injury Clinical Trial
Official title:
Prehospital Tranexamic Acid Use for Traumatic Brain Injury
Primary aim: To determine the efficacy of two dosing regimens of TXA initiated in the
prehospital setting in patients with moderate to severe TBI (GCS score ≤12).
Primary hypothesis: The null hypothesis is that random assignment to prehospital
administration of TXA in patients with moderate to severe TBI will not change the proportion
of patients with a favorable long-term neurologic outcome compared to random assignment to
placebo, based on the GOS-E at 6 months.
Secondary aims: To determine differences between TXA and placebo in the following outcomes
for patients with moderate to severe TBI treated in the prehospital setting with 2 dosing
regimens of TXA:
- Clinical outcomes: ICH progression, Marshall and Rotterdam CT classification scores, DRS
at discharge and 6 months, GOS-E at discharge, 28-day survival, frequency of
neurosurgical interventions, and ventilator-free, ICU-free, and hospital-free days.
- Safety outcomes: Development of seizures, cerebral ischemic events, myocardial
infarction, deep venous thrombosis, and pulmonary thromboembolism.
- Mechanistic outcomes: Alterations in fibrinolysis based on fibrinolytic pathway
mediators and degree of clot lysis based on TEG.
Inclusion: Blunt and penetrating traumatic mechanism consistent with TBI with prehospital GCS
≤ 12 prior to administration of sedative and/or paralytic agents, prehospital SBP ≥ 90 mmHg,
prehospital intravenous (IV) access, age ≥ 15yrs (or weight ≥ 50kg if age is unknown), EMS
transport destination based on standard local practices determined to be a participating
trauma center.
Exclusion: Prehospital GCS=3 with no reactive pupil, estimated time from injury to start of
study drug bolus dose >2 hours, unknown time of injury, clinical suspicion by EMS of seizure
activity, acute MI or stroke or known history, to the extent possible, of seizures,
thromboembolic disorders or renal dialysis, CPR by EMS prior to randomization, burns > 20%
TBSA, suspected or known prisoners, suspected or known pregnancy, prehospital TXA or other
pro-coagulant drug given prior to randomization, subjects who have activated the "opt-out"
process when required by the local regulatory board.
A multi-center double-blind randomized controlled trial with 3 treatment arms:
- Bolus/maintenance: 1 gram IV TXA bolus in the prehospital setting followed by a 1 gram
IV maintenance infusion initiated on hospital arrival and infused over 8 hours.
- Bolus only: 2 grams IV TXA bolus in the prehospital setting followed by a placebo
maintenance infusion initiated on hospital arrival and infused over 8 hours.
- Placebo: Placebo IV bolus in the prehospital setting followed by a placebo maintenance
infusion initiated on hospital arrival and infused over 8 hours.
1. Overview This multi-center, Phase II trial is designed to determine if Tranexamic Acid
(TXA) initiated in the prehospital setting improves long-term neurologic outcome
compared to placebo in patients with moderate to severe TBI who are not in shock. This
study protocol will be conducted as part of the Resuscitation Outcomes Consortium (ROC)
at trauma centers in the United States and Canada. ROC is funded by the National Heart
Lung and Blood Institute (NHLBI) in partnership with the US Army Medical Research and
Materiel Command (USAMRMC), Canadian Institutes of Health Research, the Heart & Stroke
Foundation of Canada, the American Heart Association (AHA), and the Defense Research and
Development Canada. ROC is a clinical trials network focusing on research primarily in
the area of prehospital cardiopulmonary arrest and severe traumatic injury. The mission
of ROC is to provide infrastructure and project support for clinical trials and other
outcome-oriented research in the areas of cardiopulmonary arrest and severe traumatic
injury that lead to evidence-based change in clinical practice.
2. Specific Aims/Hypothesis Statement
2.1 Clinical Hypotheses and Aims
Specific aim 1: To compare 6-month neurologic outcome between subjects who are randomly
assigned to TXA to subjects who are randomly assigned to placebo by evaluating the
Glasgow Outcome Scale Extended score (GOS-E) at 6 months post-injury.
Primary Hypotheses: We will perform a one-sided test of the following null hypothesis:
The proportion of subjects who have a favorable neurologic outcome (GOS-E > 4) at six
months post injury who are randomly assigned to TXA is not different from the proportion
of subjects who have a favorable neurologic outcome (GOS-E > 4) who are randomly
assigned to placebo. This hypothesis will be tested versus the alternative that the
proportion of subjects with a favorable neurologic outcome who are randomly assigned to
TXA is higher than in subjects who are randomly assigned to placebo at the .1 level and
versus the alternative that the proportion of subjects with a favorable neurologic
outcome who are randomly assigned to TXA is lower than it is in the placebo group at the
.025 level
Specific aim 2: To assess differences in morbidity and mortality measured from
randomization through 28 days or initial hospital discharge and differences in
neurologic outcomes at 6 months between subjects in the bolus/maintenance arm, bolus
only arm, and placebo arm.
Secondary Hypotheses: The null hypotheses are that there will be no difference between
subjects who are randomly assigned to TXA and subjects who are randomly assigned to
placebo in the following: both absolute and relative volume of intracranial hemorrhage
(ICH) progression, proportion of subjects with ICH progression, frequency of
neurosurgical interventions, GOS-E measured at discharge and 6 months, Disability Rating
Scale score (DRS) measured at discharge and 6 months, 28-day survival, and
ventilator-free, intensive care unit (ICU)-free, and hospital-free days.
Specific aim 3: To assess differences in adverse events measured from randomization to
initial hospital discharge between subjects in the bolus/maintenance arm, bolus only
arm, and placebo arm.
Tertiary Hypotheses: The null hypotheses are that there will be no difference between
subjects who are randomly assigned to TXA and subjects who are randomly assigned to
placebo in the following: proportion of subjects experiencing seizures, cerebral
ischemic events, myocardial infarction (MI), deep venous thrombosis (DVT), or pulmonary
thromboembolism (PE) post randomization through 28 days or discharge, whichever occurs
first.
2.2 Laboratory Hypotheses and Aims
Specific aim 1: To compare coagulation profiles over time using kaolin activated
thrombelastography (TEG) results between subjects who are randomly assigned to TXA and
subjects who are randomly assigned to placebo.
Primary hypothesis: The null hypothesis is that there will be no difference in the
degree of fibrinolysis as assessed by percentage of clot lysis determined 30 minutes
after the maximum amplitude is reached (LY30) between subjects who are randomly assigned
to TXA and subjects who are randomly assigned to placebo.
Specific aim 2: To explore the underlying mechanism of TXA by comparing fibrinolytic
pathway mediator activity between subjects who are randomly assigned to TXA and subjects
who are randomly assigned to placebo.
Secondary hypothesis: The null hypothesis is that there will be no change in
fibrinolytic pathway mediators between subjects who are randomly assigned to TXA and
subjects who are randomly assigned to placebo.
Specific aim 3: To estimate the association between the degree of fibrinolysis based on
kaolin activated TEG results and fibrinolytic pathway mediators on primary and secondary
clinical outcomes.
Tertiary hypothesis: The null hypothesis is that no association will exist between the
degree of fibrinolysis and fibrinolytic pathway mediators and primary and secondary
clinical outcomes.
3. Study Enrollment
EMS agencies will carry blinded sealed study drug kits. Once the seal is broken in the
presence of the patient, the patient is randomized. The EMS study drug kit will contain
a vial of either 1 gram TXA, 2 grams TXA, or placebo. EMS will mix the study drug in a
250 mL bag of 0.9% sodium chloride and administer the bolus infusion as soon as
life-saving interventions are performed. After randomization, EMS will provide the study
drug kit ID# to the receiving pharmacy. The hospital pharmacist will obtain the
randomization assignment from the coordinating center and prepare the appropriate drug
to be administered in the hospital.
4. Sample Size and Statistical Analysis
The total sample size is 963 (321 per group) starting treatment, which will allow for
80% power to detect a 7.1% absolute difference in favorable long-term neurological
outcome as determined by the GOS-E 6 months after injury comparing the combined TXA
treatment groups to placebo, using a one-sided, level 0.1 test.
Statistical analysis of primary hypothesis: Modified intention-to-treat analysis using
logistic regression to test for association and estimate the strength of the association
of treatment group with a favorable 6-month outcome (defined as a GOS-E > 4), after
adjustment for study site.
5. Human subjects protection
This study qualifies for the exception from informed consent (EFIC) required for emergency
research outlined in FDA regulation 21CFR50.24. EFIC applies because of life-threatening
situation, intervention must be administered before consent is feasible, no reasonable way to
identify prospectively individuals at risk, patients have the prospect of benefit from the
treatment, and the research could not practically be carried out without the waiver of
consent.
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